Force transducers for use in electrostatic drivers, including electrostatic drivers that can be utilized in loudspeaker systems that utilize drivers having a magnetic negative spring (MNS) (such as reluctance assist drivers (RAD) and permanent magnet crown (PMC) drivers). The electroacoustic drivers having the force transducers can be used at all audio frequencies, including subwoofer frequencies.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A force transducer comprising: (a) an inner ferromagnetic core and an outer ferromagnetic core; (b) a first magnetic pole having a first magnetic polarization and a first magnetic pole axial length, wherein (i) the first magnetic pole has a first portion of the first magnetic pole that is connected to the inner ferromagnetic core and is facing the outer ferromagnetic core, wherein axial length of the first portion of the first magnetic pole is the first magnetic pole axial length, and (ii) the first magnetic pole has a second portion of the first magnetic pole that is connected to the outer ferromagnetic core and is facing the inner ferromagnetic core, wherein axial length of the second portion of the first magnetic pole is the first magnetic pole axial length, (c) a second magnetic pole having a second magnetic polarization and a second magnetic pole axial length, wherein (i) the second magnetic pole has a first portion of the second magnetic pole that is connected to the inner ferromagnetic core and is facing the outer ferromagnetic core, wherein axial length of the first portion of the second magnetic pole is the second magnetic pole axial length, (ii) the second magnetic pole has a second portion of the second magnetic pole that is connected to the outer ferromagnetic core and is facing the inner ferromagnetic core, wherein axial length of the second portion of the second magnetic pole is the second magnetic pole axial length, (iii) the first magnetic polarization and the second magnetic polarization are oppositely directed, and (iv) the first magnetic pole axial length is equal ±10% to the second magnetic pole axial length; (d) a first movable coil having a first moveable coil axial length; (e) a first moveable magnet operatively connected to the first moveable coil at an axial distance that is within 10% of the first movable coil axial length; (f) a second moveable coil having a second moveable coil axial length, wherein (i) the first moveable coil is movably located between (A) the first portion of the first magnetic pole connected to the inner ferromagnetic core and (B) the second portion of the first magnetic pole connected to the outer ferromagnetic core, (ii) the second moveable coil is movably located between (A) the first portion of the second magnetic pole connected to the inner ferromagnetic core and (B) the second portion of the second magnetic pole connected to the outer ferromagnetic core, and (iii) the first moveable coil length is equal ±10% to the second moveable coil length; and (g) a second moveable magnet operatively connected to the second moveable coil at an axial distance that is within 10% of the second movable coil axial length.
2. The force transducer of claim 1, wherein the first magnetic pole axial length is equal ±10% to the first moveable coil length.
3. The force transducer of claim 1, wherein the second magnetic pole axial length is equal ±10% to the second moveable coil length.
4. The force transducer of claim 1, wherein a first outer stationary magnet and a second outer stationary magnet are connected to the outer ferromagnetic core.
5. The force transducer of claim 4, wherein the first outer stationary magnet and the second outer stationary magnet are oppositely polarized.
6. The force transducer of claim 4, wherein the first outer stationary magnet and the second outer stationary magnet are permanent magnets.
7. The force transducer of claim 1, wherein a first inner stationary magnet and a second inner stationary magnet are connected to the inner ferromagnetic core.
8. The force transducer of claim 7, wherein the first inner stationary magnet and the second inner stationary magnet are oppositely polarized.
9. The force transducer of claim 7, wherein the first inner stationary magnet and the second inner stationary magnet are permanent magnets.
10. The force transducer of claim 1, wherein the first moveable magnet and the second moveable magnet are oppositely polarized.
11. The force transducer of claim 1, wherein (a) a first outer stationary magnet and a second outer stationary magnet are connected to the outer ferromagnetic core, and (b) the first moveable magnet and the first outer stationary magnet are oppositely polarized.
12. The force transducer of claim 1, wherein (a) a first outer stationary magnet and a second outer stationary magnet are connected to the outer ferromagnetic core, and (b) the second moveable magnet and the second stationary magnet are oppositely polarized.
13. The force transducer of claim 1, wherein (a) a first inner stationary magnet and a second inner stationary magnet are connected to the inner ferromagnetic core, and (b) the first moveable magnet and the first inner stationary magnet are oppositely polarized.
14. The force transducer of claim 1, wherein (a) a first inner stationary magnet and a second inner stationary magnet are connected to the inner ferromagnetic core, and (b) the second moveable magnet and the second inner stationary magnet are oppositely polarized.
15. The force transducer of claim 1, wherein the first moveable magnet and the second moveable magnet are permanent magnets.
16. The force transducer of claim 1 further comprising a position sensor, wherein the position sensor is operatively connected to the inner ferromagnetic core and outer ferromagnetic core such that the position sensor is stationary with respect to the inner ferromagnetic core and outer ferromagnetic core.
17. The force transducer of claim 16, wherein the position sensor is an infrared position sensor.
18. A loudspeaker comprising a force transducer of claim 1.
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February 21, 2023
April 22, 2025
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